Friction Velocity given Dimensionless Wave Height Solution

STEP 0: Pre-Calculation Summary
Formula Used
Friction Velocity = sqrt(([g]*Characteristic Wave Height)/Dimensionless Wave Height)
Vf = sqrt(([g]*H)/H')
This formula uses 1 Constants, 1 Functions, 3 Variables
Constants Used
[g] - Gravitational acceleration on Earth Value Taken As 9.80665
Functions Used
sqrt - A square root function is a function that takes a non-negative number as an input and returns the square root of the given input number., sqrt(Number)
Variables Used
Friction Velocity - (Measured in Meter per Second) - Friction velocity, also called Shear velocity, is a form by which a shear stress may be re-written in units of velocity.
Characteristic Wave Height - (Measured in Meter) - Characteristic wave height is originally taken as the significant wave height but more recently taken as the energy-based wave height.
Dimensionless Wave Height - Dimensionless Wave Height is denoted by H' symbol.
STEP 1: Convert Input(s) to Base Unit
Characteristic Wave Height: 110 Meter --> 110 Meter No Conversion Required
Dimensionless Wave Height: 30 --> No Conversion Required
STEP 2: Evaluate Formula
Substituting Input Values in Formula
Vf = sqrt(([g]*H)/H') --> sqrt(([g]*110)/30)
Evaluating ... ...
Vf = 5.99647535362788
STEP 3: Convert Result to Output's Unit
5.99647535362788 Meter per Second --> No Conversion Required
FINAL ANSWER
5.99647535362788 5.996475 Meter per Second <-- Friction Velocity
(Calculation completed in 00.004 seconds)

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19 Measured Wind Directions Calculators

Cyclostrophic Approximation to Wind Speed
Go Cyclostrophic Approximation to Wind Speed = (Scaling Parameter*Parameter Controlling Peakedness*(Ambient Pressure at Periphery of Storm-Central Pressure in Storm)*exp(-Scaling Parameter/Arbitrary Radius^Parameter Controlling Peakedness)/(Density of Air*Arbitrary Radius^Parameter Controlling Peakedness))^0.5
Ambient Pressure at Periphery of Storm
Go Ambient Pressure at Periphery of Storm = ((Pressure at Radius-Central Pressure in Storm)/exp(-Scaling Parameter/Arbitrary Radius^Parameter Controlling Peakedness))+Central Pressure in Storm
Pressure Profile in Hurricane Winds
Go Pressure at Radius = Central Pressure in Storm+(Ambient Pressure at Periphery of Storm-Central Pressure in Storm)*exp(-Scaling Parameter/Arbitrary Radius^Parameter Controlling Peakedness)
Maximum Velocity in Storm
Go Maximum Velocity of Wind = (Parameter Controlling Peakedness/Density of Air*e)^0.5*(Ambient Pressure at Periphery of Storm-Central Pressure in Storm)^0.5
Friction Velocity given Dimensionless Fetch
Go Friction Velocity = sqrt([g]*Straight Line Distance over which Wind Blows/Dimensionless Fetch)
Friction Velocity given Dimensionless Wave Height
Go Friction Velocity = sqrt(([g]*Characteristic Wave Height)/Dimensionless Wave Height)
Wind Speed given Fully Developed Wave Height
Go Wind Speed = sqrt(Fully Developed Wave Height*[g]/Dimensionless Constant)
Dimensionless Fetch given Fetch-limited Dimensionless Wave Height
Go Dimensionless Fetch = (Dimensionless Wave Height/Dimensionless Constant)^(1/Dimensionless Exponent)
Fetch-Limited Dimensionless Wave Height
Go Dimensionless Wave Height = Dimensionless Constant*(Dimensionless Fetch^Dimensionless Exponent)
Dimensionless Fetch
Go Dimensionless Fetch = ([g]*Straight Line Distance over which Wind Blows/Friction Velocity^2)
Frequency of Spectral Peak for Dimensionless Wave Frequency
Go Frequency at Spectral Peak = (Dimensionless Wave Frequency*[g])/Friction Velocity
Friction Velocity for Dimensionless Wave Frequency
Go Friction Velocity = (Dimensionless Wave Frequency*[g])/Frequency at Spectral Peak
Dimensionless Wave Frequency
Go Dimensionless Wave Frequency = (Friction Velocity*Frequency at Spectral Peak)/[g]
Characteristic Wave Height given Dimensionless Wave Height
Go Characteristic Wave Height = (Dimensionless Wave Height*Friction Velocity^2)/[g]
Dimensionless Wave Height
Go Dimensionless Wave Height = ([g]*Characteristic Wave Height)/Friction Velocity^2
Fully Developed Wave Height
Go Fully Developed Wave Height = (Dimensionless Constant*Wind Speed^2)/[g]
Distance from Center of Storm Circulation to Location of Maximum Wind Speed
Go Distance from Center of Storm Circulation = Scaling Parameter^(1/Parameter Controlling Peakedness)
Direction in Standard Meteorological Terms
Go Direction in Standard Meteorological Terms = 270-Direction in Cartesian Coordinate system
Direction in Cartesian Coordinate System
Go Direction in Cartesian Coordinate system = 270-Direction in Standard Meteorological Terms

Friction Velocity given Dimensionless Wave Height Formula

Friction Velocity = sqrt(([g]*Characteristic Wave Height)/Dimensionless Wave Height)
Vf = sqrt(([g]*H)/H')

What is Geostrophic wind?

The Geostrophic flow is the theoretical wind that would result from an exact balance between the Coriolis force and the pressure gradient force. This condition is called geostrophic equilibrium or geostrophic balance. The geostrophic wind is directed parallel to isobars.

How to Calculate Friction Velocity given Dimensionless Wave Height?

Friction Velocity given Dimensionless Wave Height calculator uses Friction Velocity = sqrt(([g]*Characteristic Wave Height)/Dimensionless Wave Height) to calculate the Friction Velocity, The Friction Velocity given Dimensionless Wave Height formula is defined as the form by which shear stress may be re-written in units of velocity. It is useful as a method in fluid mechanics to compare true velocities, such as the velocity of a flow in a stream, to a velocity that relates shear between layers of flow. Friction Velocity is denoted by Vf symbol.

How to calculate Friction Velocity given Dimensionless Wave Height using this online calculator? To use this online calculator for Friction Velocity given Dimensionless Wave Height, enter Characteristic Wave Height (H) & Dimensionless Wave Height (H') and hit the calculate button. Here is how the Friction Velocity given Dimensionless Wave Height calculation can be explained with given input values -> 5.996475 = sqrt(([g]*110)/30).

FAQ

What is Friction Velocity given Dimensionless Wave Height?
The Friction Velocity given Dimensionless Wave Height formula is defined as the form by which shear stress may be re-written in units of velocity. It is useful as a method in fluid mechanics to compare true velocities, such as the velocity of a flow in a stream, to a velocity that relates shear between layers of flow and is represented as Vf = sqrt(([g]*H)/H') or Friction Velocity = sqrt(([g]*Characteristic Wave Height)/Dimensionless Wave Height). Characteristic wave height is originally taken as the significant wave height but more recently taken as the energy-based wave height & Dimensionless Wave Height is denoted by H' symbol.
How to calculate Friction Velocity given Dimensionless Wave Height?
The Friction Velocity given Dimensionless Wave Height formula is defined as the form by which shear stress may be re-written in units of velocity. It is useful as a method in fluid mechanics to compare true velocities, such as the velocity of a flow in a stream, to a velocity that relates shear between layers of flow is calculated using Friction Velocity = sqrt(([g]*Characteristic Wave Height)/Dimensionless Wave Height). To calculate Friction Velocity given Dimensionless Wave Height, you need Characteristic Wave Height (H) & Dimensionless Wave Height (H'). With our tool, you need to enter the respective value for Characteristic Wave Height & Dimensionless Wave Height and hit the calculate button. You can also select the units (if any) for Input(s) and the Output as well.
How many ways are there to calculate Friction Velocity?
In this formula, Friction Velocity uses Characteristic Wave Height & Dimensionless Wave Height. We can use 2 other way(s) to calculate the same, which is/are as follows -
  • Friction Velocity = sqrt([g]*Straight Line Distance over which Wind Blows/Dimensionless Fetch)
  • Friction Velocity = (Dimensionless Wave Frequency*[g])/Frequency at Spectral Peak
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